Injectivity radius lower bound of convex sum of tame Riemannian metrics and applications to symplectic topology

Abstract

Motivated by the aspect of large-scale symplectic topology, we prove that for any pair g0, \, g1 of complete Riemannian metrics of bounded curvature and of injectivity radius bounded away from zero, the convex sum gs: = (1-s ) g0 + s g1 also has bounded curvature depending only on the curvature bounds \|Rgi\|C0 of g0 or g1, and that the injectivity radii of gs have uniform lower bound depending only on the derivative bounds \|Rgi\|C1 = \|Rgi\|C0 + \|DRgi\|C0. A main technical ingredient to establish the injectivity radius lower bound is an application of the quantitative inverse function theorem. Using these estimates, we prove that each quasi-isometry class of tame metrics is convex and so contractible in strong Cr topology for all finite regularity class of 3 ≤ r < ∞. Using this Riemannian geometry result, we prove that the set of C3-tame almost complex structures inside the same quasi-isometry class associated to the symplectic form ω is contractible.